三天后截止,南丹麦大学招聘“建筑循环经济”方向玛丽居里博士三名。享受>5万元/月的玛丽居里待遇+国际化培养网络!和代尔夫特,瑞士联邦理工学院,伦敦大学学院等世界名校在同一个学术网络。
点击你感兴趣职位的链接速速提交材料。申请材料提交截止日期欧洲时间2024年9月23日23点59分。
Position 1: Multi-layer Building Stocks Characterisation and Circular Economy Potential https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1983?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
Position 2: Multi-level Material Cycles and Market Dynamics https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1984?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
Position 3: Building Stock Characterisation and Circularity Aspects in Material Output Valuation https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1985?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
We are hiring three fully funded Marie-Curie PhD!
Do you want to be part of the circular revolution to rethink the way we value the built environment? Join us as a fully funded PhD in the MSCA Doctoral Network QuiVal - Quantum Inspired Valuation of Circular Real Estate (https://quival-research.eu).
At SDU Life Cycle Engineering within the Department of Green Technology, University of Southern Denmark (SDU), we are offering three fully funded three-year PhDs in the Marie-Curie Doctoral Network QuiVal, where we explore and innovate real estate value and valuation practices through inspiration from quantum theories.
🌟 Be a part of a wonderful research network that includes Delft University of Technology, University of Southern Denmark, University, College London, Swiss Federal, Institute of Technology Zurich, University of the West of England, University of Antwerp, Tallinn University of Technology, and University of Naples Federico II.
🌟 Enjoy a fantastic environment exchange at TU Delft(supervised by Prof. Daan Schravenand Prof. Hilde Remøy) or at UWE(supervised by Prof. Alice Moncaster).
🌟Get wonderful supervision from Assistant Prof. Wu Chen (University of Southern Denmark), Prof. Morten Birkved (University of Southern Denmark), And Prof. Gang Liu (Peking University)
Project overview
In order to make our cities more circular, we need to fundamentally revisit the way that we define and quantify the value of our built environment. This fully funded PhD project is part of a Marie Sklodowska Curie Action Doctoral Network, QuiVal, a programme funded by the European Union with the aim to develop a fundamentally new approach to real estate valuation, allowing the sector to rapidly transition towards a more sustainable, low carbon and circular future. This will be achieved through a transdisciplinary PhD training programme across 8 universities and 14 industry partners, and including 13 PhD students who will work, together and separately, to rethink the philosophy, principles and processes of valuation.
The programme is transdisciplinary and co-produced by leading academics and practitioners who are passionate and knowledgeable about the real estate industry and about sustainability. Five objectives have been developed through which to achieve the aim, and each PhD project will respond to one of these objectives.
For an overview of all the vacancies of QuiVal, click here.
Three PhD positions are available:
Position 1: Multi-layer Building Stocks Characterisation and Circular Economy Potential
The scale and quality of the existing building stock are the key determinants for stock upgrade and new construction. They indirectly determine the level of demolition and thus affect changes in building life expectancy. Understanding the quantity and quality of future construction and demolition waste and potentials of various CE strategies (including but not limited to material recycling and component reuse) requires high-resolution characterisation of the building stock. By integrating material stocks and material flow analyses, geographic information systems (GIS), socio-economic statistics, and engineering and architectural knowledge from diverse sources, this project will characterise the spatial building stocks at building, structure, component, and material layers, using case cities in Europe as examples. Based on this, potential for various CE strategies will be explored under different urban development, political and socio-economic scenarios. This project aims to develop methods to characterise building stocks in high resolution at multiple layers. This characterisation will facilitate the assessment and development of CE strategies, and it will incorporate quantum-inspired approaches to capture the dynamic and probabilistic nature of building values and life cycles. As well as a dissertation, and a number of academic papers, the project will produce an accessible report for real estate professionals.
Apply Here
https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1983?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
Position 2: Multi-level Material Cycles and Market Dynamics
The valuation of building materials is crucial, and complex because of the volatility of building material markets. Parallel to project3a, this project will further explore how the material cycles (e.g., production, manufacturing, use, and end-of-life management) and market dynamics (e.g., demand and supply of scrap in the building and non-building sectors) will affect the value of demounted building material. For example, fast-growing steel scrap from the transport sector will influence the supply and thus market economics of building steel recycling. This project will develop a holistic assessment framework considering the synergy between the building sector and other sectors based on full material cycles and market dynamics. This approach will be used for key representative building materials (e.g., steel, copper, timber, and aggregates) used in the construction sector (as described in project 3a) to identify the most feasible and sustainable material recovery pathways. This project aims at developing a holistic method to assess and identify the recycling and reuse pathways of building materials considering the full material cycles and market dynamics. Incorporating quantum-inspired methodologies will enable a more nuanced understanding of the probabilistic and interconnected nature of market dynamics and material cycles. As well as a dissertation, and a number of academic papers, the project will produce an accessible report for real estate professionals.
Apply Here
https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1984?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
Position 3: Building Stock Characterisation and Circularity Aspects in Material Output Valuation
This project will study how features of circularity contribute to the value of materials during the urban mining of buildings and the phase of material mobility between an old and new destination, using quantum concepts. The objective of3c is to explore, develop, and test the environmental and social values of demountable materials on their many potential circular destinations, considering exchangeability, destination flexibility, and reconfigurability. Furthermore, the aim of project 3c is to develop knowledge on how higher levels of circularity, like rethink and restore, can be included in material output valuation. As well as a dissertation, and a number of academic papers, the project will produce an accessible report for real estate professionals.
Apply Here
https://fa-eosd-saasfaprod1.fa.ocs.oraclecloud.com/hcmUI/CandidateExperience/en/sites/CX_1001/job/1985?lastSelectedFacet=CATEGORIES&selectedCategoriesFacet=300000002425892
Start Date: November 1, 2024, or as soon as possible thereafter.
Application Deadline: September 23, 2024, 11:59 PM CET.
Don't miss this incredible opportunity to join a fully funded, interdisciplinary research project with a world-class network! Feel free to contact me at wuc@igt.sdu.dk with any questions and spread the word!
请点击传送门:
欢迎关注我的
微信公众号:丹麦电气男老师李根
知乎:Reaganlee
21/09/2024
欢迎多多点赞多多关注哦
